MMIC devices for active phased array antennas
Abstract
The study of printed circuit discontinuities is necessary in order to design, for example, transitions between rectangular waveguides and printed circuits. New developments with respect to the analytical approaches to this problem are discussed. A summary of the progress in the experimental approach is presented. The accurate solution for the modes in various millimeter-wave waveguides is essential in the analysis of many integrated circuit components, such as filters and impedance transformers. Problems associated with the numerical computation of these modes in two frequently used waveguide forms, namely, the finline and microstrip, are presented. The spectral domain method of formulation, with a moment method solution, is considered. This approach can be readily extended to analyze an arbitrary configuration of dielectric and metallized regions in a shielded enclosure. Galerkin's method is used, where the testing and basic functions are the same. It is shown that the mode functions, or eigenfunctions, are more sensitive to errors than the phase constants, or eigenvalues. The approximate mode functions do not satisfy the orthogonality relationship well, resulting in difficulties when these modal solutions are used to form an approximate Green's function or are used in a mode matching analysis.
- Publication:
-
Semiannual Report
- Pub Date:
- December 1984
- Bibcode:
- 1984uill.reptS....M
- Keywords:
-
- Antennas;
- Discontinuity;
- Millimeter Waves;
- Phased Arrays;
- Printed Circuits;
- Waveguides;
- Approximation;
- Computation;
- Galerkin Method;
- Green'S Functions;
- Microstrip Devices;
- Communications and Radar